AbstractThe improvement of theorem provers by reusing previously computed proofs is investigated. A method for reusing proofs is formulated as an instance of the problem reduction paradigm such that lemmata are speculated as proof obligations, being subject for subsequent reuse attempts. We motivate and develop a termination requirement, prove its soundness, and show that the reusability of proofs is not spoiled by the termination requirement imposed on the reuse procedure. Additional evidence for the general usefulness of the proposed termination order is given for lemma speculation in induction theorem proving
We give an overview of some combinatorial problems that can be transformed to termination problems o...
Lemmas can provide valuable help for constructing a proof, by providing intermediate steps. However,...
SUMMARY Inductive theorem proving plays an important role in the field of formal verification of sys...
AbstractThe improvement of theorem provers by reusing previously computed proofs is investigated. A ...
AbstractWe investigate the improvement of theorem proving by reusing previously computed proofs. We ...
We develop a learning component for a theorem prover designed for verifying statements by mathematic...
. 1 We investigate the application of machine learning paradigms in automated reasoning in order t...
Automated theorem provers might be improved if they are enabled to reuse previously computed proofs....
Noting that lemmas are a key feature of mathematics, we engage in an investigation of the role of le...
Automated theorem provers might be improved if they are enabled to reuse previously computed proofs....
. 1 We investigate the improvement of theorem provers by reusing previously computed proofs. We ha...
We present a succinct account of dynamic rippling, a technique used to guide the automation of indu...
Automating proofs by induction can be challenging, not least because proofs might need auxiliary lem...
Abstract. x We investigate the improvement of the-orem proven by reusing previously computed proofs....
. 1 Automated theorem provers might be improved if they reuse previously computed proofs. Our appr...
We give an overview of some combinatorial problems that can be transformed to termination problems o...
Lemmas can provide valuable help for constructing a proof, by providing intermediate steps. However,...
SUMMARY Inductive theorem proving plays an important role in the field of formal verification of sys...
AbstractThe improvement of theorem provers by reusing previously computed proofs is investigated. A ...
AbstractWe investigate the improvement of theorem proving by reusing previously computed proofs. We ...
We develop a learning component for a theorem prover designed for verifying statements by mathematic...
. 1 We investigate the application of machine learning paradigms in automated reasoning in order t...
Automated theorem provers might be improved if they are enabled to reuse previously computed proofs....
Noting that lemmas are a key feature of mathematics, we engage in an investigation of the role of le...
Automated theorem provers might be improved if they are enabled to reuse previously computed proofs....
. 1 We investigate the improvement of theorem provers by reusing previously computed proofs. We ha...
We present a succinct account of dynamic rippling, a technique used to guide the automation of indu...
Automating proofs by induction can be challenging, not least because proofs might need auxiliary lem...
Abstract. x We investigate the improvement of the-orem proven by reusing previously computed proofs....
. 1 Automated theorem provers might be improved if they reuse previously computed proofs. Our appr...
We give an overview of some combinatorial problems that can be transformed to termination problems o...
Lemmas can provide valuable help for constructing a proof, by providing intermediate steps. However,...
SUMMARY Inductive theorem proving plays an important role in the field of formal verification of sys...